EP3094973A1 - Biomarkers - Google Patents
BiomarkersInfo
- Publication number
- EP3094973A1 EP3094973A1 EP13802086.2A EP13802086A EP3094973A1 EP 3094973 A1 EP3094973 A1 EP 3094973A1 EP 13802086 A EP13802086 A EP 13802086A EP 3094973 A1 EP3094973 A1 EP 3094973A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- ibd
- concentration
- sample
- determining
- subject
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/68—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving proteins, peptides or amino acids
- G01N33/6893—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving proteins, peptides or amino acids related to diseases not provided for elsewhere
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/06—Gastro-intestinal diseases
- G01N2800/065—Bowel diseases, e.g. Crohn, ulcerative colitis, IBS
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/52—Predicting or monitoring the response to treatment, e.g. for selection of therapy based on assay results in personalised medicine; Prognosis
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/54—Determining the risk of relapse
Definitions
- the present invention relates to methods for diagnosing inflammatory bowel disease (IBD), such as ulcerative colitis (UC) or Crohn's disease (CD) and assessing intestinal inflammation intensity by measuring the amount of an IBD-specific biomarker(s) in a sample of colorectal mucocellular layer non-invasively collected from the surface of the anal area of a human subject following the natural act of defaecation. Simultaneous quantitative evaluation of several biomarkers in samples of human colorectal mucocellular layer provides additional methods for IBD monitoring, assessing effectiveness of applied therapy and individually selecting specific therapeutic modalities for IBD patients. The invention also provides a method for distinguishing between UC and Crohn's disease.
- IBD inflammatory bowel disease
- UC ulcerative colitis
- CD Crohn's disease
- IBD Inflammatory bowel disease
- Ulcerative colitis (UC) and Crohn's disease (CD) are the most important conditions of this group. IBD is usually diagnosed in young adults. In most cases it is characterized by long remissions and incidental disabling flare-ups usually requiring treatment.
- IBD Irritable Bowel Syndrome
- IBD diagnosis confirmation usually requires colonoscopy, an efficient diagnostic procedure that is, however, highly invasive, expensive and can sometimes cause dangerous complications. Repeated colonoscopies in IBD patients may be dangerous; therefore currently IBD activity and therapy efficiency are usually assessed by disease activity indexes based on severity of clinical manifestations and results of indirect laboratory analyses (Satsangi et al, 2006). Colonoscopy is also widely used to differentiate between IBD and common functional conditions such as IBS.
- IBD-related changes in the human gut microbiome is the main element of another genotyping-based technique (US Pat. App. No. 2013/0045874).
- Other relevant patents using genetic markers describe approaches targeting changes in microRNAs (W094/21662; US Pat App. Nos. 201 1/01 171 1 1 ; 2013/0143764) and various gene expression profiles (US Pat. Nos. 7,875,431 ; 8,257,923; US Pat. App. Nos. 2009/0155788; 2009/0186034; 2009/0311260; 2010/0267575; 201 1/0082188; EP1462527).
- pANCA perinuclear anti-neutrophil cytoplasmic antibodies
- ASCA CD-associated anti- saccharomyces cerevisiae antibodies
- peripheral blood or serological marker panels may potentially be useful for differentiating UC from CD, disease monitoring and defining therapeutic strategies (Peyrin-Biroulet et al, 2007), they do not perform better than non-specific C-reactive protein (Palmon et al, 2008). None of them is currently applied for practical clinical use.
- Another major group of biomarker-based approaches in the area of IBD is related to analysing samples directly derived from the gastrointestinal tract. Prior art of this type deserves special attention since the present invention belongs to this group.
- the principal candidates were proteins found in neutrophil granules, in particular calprotectin, lactoferrin, S100A12 protein, dimeric pyruvate kinase, polymorphonuclear elastase, myeloperoxidase and human neutrophil lipocalin (Foell et al, 2009; Lewis, 201 1 ; Sherwood, 2012).
- calprotectin detection in stool samples using ELISA assay developed and patented by Fagerhol et al (US Pat. No. 5455160) was extensively investigated and provided the most consistent results (van Rheenen et al, 2010; Lewis, 201 1 ). This calprotectin assay has recently been improved as described in US Pat. App. No.
- M2-PK Dymeric pyruvate kinase
- Polymorphonuclear elastase is another enzyme present in neutrophils, which was proposed as a candidate IBD biomarker (Langhorst et al, 2008; Foell et al, 2009). Although an immunoassay for this protein exists (US Pat. No. 6,124,107), it is not regarded as a potential clinical test.
- inflammation-related neutrophil degranulation can be detected in stool samples by quantifying myeloperoxidase (Wagner et al, 2008; Masoodi et al, 201 1 ) and human neutrophil lipocalin (Nielsen et al, 1996, 1999), but these tests are not sufficiently studied to be proposed for IBD detection.
- Proteins associated with eosinophils such as eosinophil cationic protein and eosin- derived neurotoxin (EDN) can also be detected in stool, but they were usually described as faecal markers of intestinal hypersensitivity and eosinophilic inflammation (Foell et al, 2009).
- the eosinophil-derived neurotoxin (EDN, also called Eosinophil Protein X) is a multifunctional protein possessing ribonuclease activity (Rosenberg, 2008).
- EDN Increased EDN values were also reported in colorectal perfusion fluid (Carlson et al, 1999) and material collected from the surface of the rectal mucosa using an inflatable intrarectal device (Anderson et al, 201 1 ; the collecting device was described in US Pat. App. 2008/0097238). The latter two studies, however, assessed very few IBD cases.
- Gleich and Levy US Pat. No. 5,928,883
- EDN was proposed as one of eosinopil granule proteins (alongside eosinophil peroxidase), combined determination of which in whole gut lavage liquid could be used for IBD diagnosis.
- EDN was not regarded as a promising biomarker of IBD, being less reliable than calprotectin or other stool biomarkers (Wagner et al, 2008; Foell et al, 2009). EDN was never considered as an IBD biomarker suitable for clinical use.
- TNFa Tumour necrosis factor alpha
- a small peptide predominantly produced by activated macrophages could be a very good candidate, being a recognised therapeutic target in IBD patients (Danese et al, 2013).
- immunoassays for TNFa exist (e.g. US Pat. Nos. 5,223,395; 5,436,154; 7,285,269), the protein is unstable in stool samples (Foell et al, 2009). This constitutes a serious obstacle for using it for diagnostic purposes.
- Additional biomarkers that are not derived from inflammatory cells can also be informative in the context of IBD diagnosis and monitoring.
- CAMs cell adhesion molecules
- IAM-1 intercellular adhesion molecule-1
- Detection of a common polymorphism in the gene encoding ICAM-1 appears to correlate with IBD risk and was previously proposed as an approach to genetic screening for predisposition to IBD development (US Pat. Nos. 5,681 ,699; 6,008,335; 6,884,590).
- ICAM-1 expression has recently been proposed as an approach to IBD treatment (Miner et al, 2006; Vainer, 2010). All available information regarding ICAM-1 presence in the colonic mucosa is limited by descriptive morphological observations from biopsy samples (Vainer, 2010), whereas it has never been quantified in either mucosal or stool samples.
- Soluble cytokeratin 18 (CK- 18) is known to be released from epithelial cells following their death (Ueno et al, 2005). Although the presence of CK-18 in stool samples has never been investigated, elevated levels of this protein were once reported in samples obtained intrarectally from a few IBD patients (Anderson et al, 201 1 ).
- D-dimer is a small protein fragment generated during cross-linked fibrin degradation (Pabinger & Ay, 2009). Its increased presence can indicate chronic bleeding that is a common phenomenon in many IBD patients. Increased D-dimer levels in plasma samples from IBD patients were previously observed (Kume et al, 2007), but little was known on D-dimer changes in the gut. This biomarker could also be measured in intrarectally collected material (Anderson et al, 201 1 ). D-dimer measurement might be informative for assessing intestinal inflammation severity and bleeding-related complication risk.
- a method for diagnosing an inflammatory bowel disease comprising determining the concentration of at least one IBD-specific biomarker, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, wherein the sample is obtained from the surface of the anal area following defaecation, comparing said concentration to a threshold value and determining that the subject has IBD when the concentration of at least one IBD-specific biomarker is said sample is equal to or greater than the threshold value.
- the sample is an intestinal mucocellular layer.
- the sample may be a sample originating from the internal surface of the bowel.
- the sample is taken from the anal area in the vicinity of the exterior opening of the anal canal.
- the at least one IBD-specific biomarker is selected from the group consisting of eosinophil-derived neurotoxin (EDN), calprotectin, S100A12, ICAM1 , CK- 18, D-dimer, TNF-a, ASCA, pANCA, anti-GP2 antibodies, lactoferrin and total amount of human DNA in the sample or a combination thereof.
- EDN eosinophil-derived neurotoxin
- the IBD-specific biomarker is EDN and the threshold value is (or is equivalent to) between 15ng/ml and 35 ng/ml when the (collected) sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is calprotectin and the threshold value is or is equivalent to between 3 ⁇ g/ml and 6.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is S100A12 and the threshold value is or is equivalent to 50ng/ml when the collected sample is lysed in 3ml of lysis buffer In a further alternative embodiment the IBD-specific biomarker is ICAMI and the threshold value is or is equivalent to 150pg/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is EDN the threshold value is, or is equivalent to, 15ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is calprotectin and the threshold value is, or is equivalent to, 3.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the IBD-specific biomarker is determined by contacting the sample with at least one antibody capable of specifically binding the IBD-specific biomarker or a fragment or variant thereof.
- a method for diagnosing an inflammatory bowel disease comprising determining the concentration of the EDN protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, and determining that the subject has IBD when the concentration of EDN is, or is equivalent to a value, equal to or greater than 15ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method for diagnosing an inflammatory bowel disease comprising determining the concentration of the calprotectin protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject and determining that the subject has IBD when the concentration of calprotectin is, or is equivalent to a value, equal to or greater than 3.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the method comprises determining that the subject has IBD when the concentration of EDN is, or is equivalent to a value, equal to or greater than 24ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of EDN is, or is equivalent to a value, equal to or greater than 35ng/ml when the collected sample is lysed in 3ml of lysis buffer. In a further alternative embodiment, the concentration of EDN is, or is equivalent to a value, equal to or greater than a concentration value within the range 15ng/ml to 35ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the method comprises determining that the subject has IBD when the concentration of calprotectin is, or is equivalent to a value, equal to or more than 4.7 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of calprotectin is ,or is equivalent to a value, equal to or more than 6.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of calprotectin is ,or is equivalent to a value, equal to or greater than a concentration value within the range 3 ⁇ g/ml and 6.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method for monitoring the effectiveness of a treatment for IBD comprising determining the concentration of at least one IBD-specific biomarker, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, wherein the sample is obtained from the surface of the anal area following defaecation, comparing said concentration to a threshold value and determining that the treatment is effective when the concentration of at least one IBD-specific biomarker is said sample is less than the threshold value.
- the IBD-specific biomarker is EDN the threshold value is, or is equivalent to, between 35-120ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the threshold value is, or is equivalent to, less than 100ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is calprotectin and the threshold value is, or is equivalent to, between 6.0 and 10.0 ⁇ / ⁇ when the collected sample is lysed in 3ml of lysis buffer.
- the threshold value is, or is equivalent to a value, less than 7.5 ⁇ / ⁇ when the collected sample is lysed in 3ml of lysis buffer.
- a method for monitoring the effectiveness of a treatment for IBD comprising determining the concentration of the EDN protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject post-treatment, and determining that the treatment is effective when the concentration of EDN is ,or is equivalent to, less than a value between 35-120ng/ml, when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the EDN protein, or a fragment or variant thereof is measured at at least two time points post-treatment and the method comprises determining that the treatment is effective when the concentration of EDN at at least one time point (preferably the later time point) is ,or is equivalent to, less than a value between 35-120ng/ml, when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of EDN is, or is equivalent to, less than 100ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method for monitoring the effectiveness of a treatment for IBD comprising determining the concentration of the calprotectin protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject post-treatment, and determining that the treatment is effective when the concentration of calprotectin is ,or is equivalent to, less than a value between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the calprotectin protein, or a fragment or variant thereof is measured at at least two time points post- treatment and the method comprises determining that the treatment is effective when the concentration of calprotectin at at least one time point (preferably the later time point) is, or is equivalent to, less than a value between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of calprotectin is, or is equivalent to a value, less than 7.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- monitoring the effectiveness of a treatment for IBD comprises determining the concentration of the EDN protein and/or calprotectin protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject pre and at least one time point post-treatment and determining that the treatment is ineffective when the concentration of EDN and/or calprotectin in the at least one post-treatment sample is equivalent to or greater than the concentration in the pre-treatment sample.
- the treatment is ineffective when the concentration in the post-treatment sample is ,or is equivalent to, a value equal to or greater than a value between 35-120ng/ml for EDN and between 6.0 and 10.0 ⁇ g/ml for calprotectin when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the EDN protein and/or calprotectin protein, or a fragment or variant thereof is measured at at least two time points post- treatment and the method comprises determining that the treatment is ineffective when the concentration of EDN and/or calprotectin is ,or is equivalent to a value, equal to or greater than a value between 35-120ng/ml for EDN and between 6.0 and 10.0 ⁇ g/ml for calprotectin.
- the concentration in the post- treatment sample is, or is equivalent to, a value equal to or greater than 100 ng/ml for EDN and 7.5 ⁇ g/ml for calprotectin when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of EDN and/or calprotectin is measured at at least one of the following time points: 0 (pre-treatmnent), 10, 20, 30, 40, 50, 60, 90, 120, 240, 360 days post-treatment or a combination thereof. In one embodiment the concentration of EDN and/or calprotectin is measured at day 0 (pre-treatment) and any one or more of the following time points: 10, 20, 30, 40, 50, 60, 90, 120, 240, 360 days post-treatment.
- a method for monitoring for disease relapse in an IBD patient in remission comprising determining the concentration of at least one IBD-specific biomarker, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject in remission, preferably at predetermined intervals, wherein the sample is obtained from the surface of the anal area following defaecation, comparing said concentration to a threshold value and determining a disease relapse when the concentration of the of at least one IBD-specific biomarker is said sample is equal to or greater than the threshold value.
- the IBD-specific biomarker is EDN
- the threshold value is, or is equivalent to, between 35-120ng/ml, when the collected sample is lysed in 3ml of lysis buffer. In a further embodiment, the threshold value is, or is equivalent to, 100ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is calprotectin and the threshold value is, or is equivalent to, between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer. In a further embodiment, the threshold value is, or is equivalent to, 7.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method for monitoring for disease relapse in an IBD patient in remission comprising determining the concentration of the EDN protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject at, preferably, predetermined intervals, and determining a disease relapse when the concentration of EDN is ,or is equivalent to, a value equal to or greater than a value between 35-120ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the EDN protein, or a fragment or variant thereof is measured at at least two time points and the method comprises determining a disease relapse when the concentration of EDN at at least one time point is ,or is equivalent to, a value equal to or greater than a value between 35-120ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of EDN is, or is equivalent to, a value equal to or greater than 100ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method for monitoring for disease relapse in an IBD patient in remission comprising determining the concentration of the calprotectin protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject at predetermined intervals, and determining a disease relapse when the concentration of calprotectin is ,or is equivalent to, a value equal to or greater than a value between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the calprotectin protein, or a fragment or variant thereof is measured at at least two time points and the method comprises determining a disease relapse when the concentration of calprotectin is ,or is equivalent to, a value equal to or greater than a value between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of calprotectin is, or is equivalent to, a value equal to or greater than 7.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a treatment for an IBD patient comprising determining the concentration of at least one IBD-specific biomarker, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, wherein the sample is obtained from the surface of the anal area following defaecation, comparing said concentration to a threshold value and selecting a IBD-targeted therapy when the concentration of the at least one IBD-specific biomarker is said sample is equal to or greater than the threshold value.
- the IBD-specific biomarker is EDN the threshold value is or is equivalent to, 35ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is calprotectin and the threshold value is or is equivalent to, 6.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a treatment for an IBD patient comprising determining the concentration of the EDN protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, and selecting a IBD-targeted therapy when the concentration of EDN is, or is equivalent to, a value, equal to or greater than a value between between 35-120ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of EDN is, or is equivalent to, a value equal to or more than 100ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a treatment for an IBD patient comprising determining the concentration of the calprotectin protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, and selecting a IBD-targeted therapy when the concentration of calprotectin is , or is equivalent to, a value, equal to or greater than a value between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of calprotectin is, or is equivalent to, a value equal to or greater than 7.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a subject for IBD-targeted therapy comprising determining the concentration of at least one IBD-specific biomarker, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, wherein the sample is obtained from the surface of the anal area following defaecation, comparing said concentration to a threshold value and selecting the subject for IBD-targeted therapy when the concentration of the at least one IBD-specific biomarker is said sample is equal to or greater than the threshold value.
- the IBD-specific biomarker is EDN the threshold value is, or is equivalent to, 35ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD-specific biomarker is calprotectin and the threshold value is, or is equivalent to, 6.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a subject for IBD-targeted therapy comprising determining the concentration of the EDN protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from the subject, and selecting the subject for IBD-targeted therapy when the concentration of EDN is is, or is equivalent to, a value, equal to or greater than a value between between 35-120ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of EDN is, or is equivalent to, a value equal to or more than 100ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a subject for IBD-targeted therapy comprising determining the concentration of the calprotectin protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from the subject, and selecting the subject for IBD-targeted therapy when the concentration of calprotectin is, or is equivalent to, a value, equal to or greater than a value between 6.0 and 10.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of calprotectin is, or is equivalent to, a value equal to or more than 7.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD is Crohn's disease. In an alternative embodiment of the methods described herein the IBD is Ulcerative colitis.
- the methods further comprise determining the concentration of at least one further biomarker for IBD in said sample.
- the at least one further biomarker is selected from the group consisting of S100A12, ICAM1 , CK-18, D-dimer, TNF-a, ASCA, pANCA, anti- GP2 antibodies, lactoferrin and total amount of human DNA in the sample or a combination thereof.
- the IBD-specific biomarker may also be a cytokine, alone or in combination with another IBD-specific biomarker.
- the method further comprises analysing the cytology of said sample.
- the subject has or is at risk of developing IBD.
- the subject has no clinical signs or manifestations of IBD (i.e. the subject is asymptomatic).
- the subject is human.
- the concentration of the IBD- specific biomarker is determined by contacting the sample with at least one antibody capable of specifically binding the IBD-specific biomarker protein, or a fragment or variant thereof.
- the concentration of the IBD-specific biomarker is determined by detecting the expression levels of the IBD-specific biomarker, or a fragment or variant thereof.
- total amount of human DNA in the sample is determined. The methods may further comprise comparing the concentration of the IBD-specific biomarker in a subject's sample with the concentration levels in a control or reference sample.
- a method for diagnosing an IBD comprising determining the concentration of both EDN and calprotectin , or a fragment or variant thereof of either protein, in a sample of colonic mucocellular layer obtained from a subject; comparing the concentration of both proteins to a threshold value to obtain a ratio of calprotectin concentration/calprotectin threshold and EDN concentration/EDN threshold; and determining that the subject has IBD when either or both ratio is above 1 .0.
- the threshold value for calprotectin is, or is equivalent to a value, of 4.7 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the threshold value for calprotectin is ,or is equivalent to a value, of 3.5 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer. In an alternative embodiment, the threshold value for calprotectin is ,or is equivalent to a value, 6.0 ⁇ g/ml when the collected sample is lysed in 3ml of lysis buffer.
- the threshold value for EDN is, or is equivalent to a value, of 24ng/ml when the collected sample is lysed in 3ml of lysis buffer. In a further preferred embodiment, the threshold value for EDN is 15ng/ml when the collected sample is lysed in 3ml of lysis buffer. In an alternative embodiment, the threshold value for EDN is 35ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- the IBD is ulcerative colitis. In an alternative embodiment, the IBD is Crohn's disease.
- the method further comprises determining the concentration of at least one further biomarker for IBD in said sample.
- the at least one further biomarker is selected from the group consisting of S100A12, ICAM1 , CK- 18, D-dimer, TNF-a, ASCA, pANCA, anti-GP2 antibodies, lactoferrin and total amount of human DNA in the sample or a combination thereof.
- the IBD-specific biomarker may also be a cytokine, alone or in combination with another IBD-specific biomarker.
- a method of differentially diagnosing ulcerative colitis from Crohn's disease comprising determining the concentration of both calprotectin and EDN, or a fragment or variant thereof of either protein, in a sample of colonic mucocellular layer obtained from a subject, comparing the concentration of both proteins to a threshold value to obtain a ratio of calprotectin concentration/calprotectin threshold and EDN concentration/EDN threshold; and determining that the subject has ulcerative colitis when either or both ratio is above 4.0.
- the method further comprises determining the concentration of at least one other IBD-specific biomarker.
- the at least one other IBD-specific biomarker is ASCA and/or GP-2 antibodies.
- the method further comprises determining the concentration of the ICAM1 protein, or a fragment or variant thereof in said sample.
- the method further comprises multiplying the ratio by a weighting factor when ICAM1 cannot be detected in said sample.
- the weighting factor is less than zero. More preferably, the weighting factor is 0.1 .
- the subject is determined to have ulcerative colitis (rather than Crohn's disease) when either or both ratio is equal to or greater than 4.0. In a further preferred embodiment, the subject is determined to have ulcerative colitis when either or both ratio is equal to or greater than 9.0.
- the method further comprises determining the concentration of at least one further IBD-specific biomarker in said sample.
- the at least one further IBD-specific biomarker is selected from the group consisting of ASCA (Anti-Saccharomyces cerevisiae antibodies), GP-2 and perinuclear cytoplasmic antibodies (pANCA).
- a method for diagnosing ulcerative colitis comprising determining the concentration of the S100A12 protein, or a fragment or variant thereof, in a sample of colonic mucocellular layer obtained from a subject, and determining that the subject has ulcerative colitis when the concentration of S100A12 is ,or is equivalent to a value, equal or more than 50 ng/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method for diagnosing an inflammatory bowel disease comprising determining the concentration of the ICAM1 protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, comparing said concentration to a threshold value and determining that the subject has an IBD when the concentration of ICAM1 is equal to or greater than the threshold value.
- the threshold value is or is equivalent to 150pg/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of differentially diagnosing ulcerative colitis from Crohn's disease comprising determining the concentration of ICAM1 , or a fragment or variant thereof in a sample of colonic mucocellular layer obtained from a subject, comparing the concentration to a threshold value and determining that the subject has ulcerative colitis when the concentration of ICAM1 is equal to or greater than the threshold vale.
- the threshold value is or is equivalent to 150pg/ml when the collected sample is lysed in 3ml of lysis buffer.
- a method of selecting a treatment for an IBD patient comprising determining the concentration of the ICAM1 protein, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, and selecting a I CAM 1 -targeted therapy when the concentration of ICAM1 is above a threshold value.
- the threshold value is or is equivalent to 150pg/ml when the collected sample is lysed in 3ml of lysis buffer.
- the ICAM1 -targeted therapy is alicaforsen.
- a method for assessing colonic mucosa damage comprising determining the concentration of at least one epithelial-damage specific biomarker, or a fragment or variant thereof, in a sample of the colonic mucocellular layer obtained from a subject, comparing said concentration to a threshold value, and determining that the colonic mucosa is damaged when the concentration of the at least one epithelial-damage specific biomarker is equal to or greater than the threshold value.
- the epithelial damage-specific biomarker is CK-18 and the threshold value is, or is equivalent to 300 U/L when the collected sample is lysed in 3ml of lysis buffer.
- the epithelial damage-specific biomarker is CK-18 and the threshold value is, or is equivalent to 500 U/L when the collected sample is lysed in 3ml of lysis buffer. In another embodiment, the epithelial damage-specific biomarker is CK-18 and the threshold value is, or is equivalent to, a value within the range 100 U/L to 35 U/L when the collected sample is lysed in 3ml of lysis buffer.
- the threshold value is determined by measuring the concentration of an IBD-specific biomarker in a group of one or more control subjects.
- a group of five or more control subjects More preferably, a group of ten or more control subjects.
- the threshold value defines a fractile of a distribution of measured concentrations for a population of control subjects without IBD.
- said fractile is a 0.9 or greater fractile.
- said distribution is assumed to be a Gaussian distribution.
- the threshold value identifies that said subject is IBD- positive with greater than a threshold value.
- said threshold value is associated with a defined probability of determining that said subject has IBD, when said subject has IBD.
- said defined probability is greater than 60%, preferably 65%, preferably 70%, preferably 75%, preferably 80%, preferably 85%, preferably 90%, preferably 95%, preferably 100%.
- the sample of colonic mucocellular layer from said subject is obtained from the surface of the anal area following defaecation.
- the sample is obtained from the surface of the anal area in the vicinity of the exterior opening of the anal canal.
- the sample may be obtained by taking a swab of said area.
- the sample is taken prior to cleaning the area.
- the sample is taken within 5 minutes of defaeccation. More preferably, the sample is taken within 4, 3, 2 or 1 minute of defaecation.
- the concentration of a biomarker, in particular EDN and/or calprotectin when it is determined, it may be determined in any volume of lysis, in which case the measured concentration may be expressed as if the lysis had been in 3ml of solution, i.e. normalised to the above-mentioned 3ml of lysis buffer.
- the threshold For reasons of clinical repeatability of the test it can also be advantageous to define the threshold with reference to a standardised swab size/type and/or swab procedure - but this is not essential to the above-mentioned threshold values used, for example, for distinguishing between patient groups.
- a standardised swab procedure may comprise, for example, a single swab of the target area and/or a defined swab size and/or shape.
- the swab shape may be defined as a circle or oval, optionally with a minimum dimension of not less than 5mm and/or with a maximum dimension of not more than 10mm, 15mm or 20mm.
- the swab size may be defined as having a surface area of at least 40mm 2 , 160mm 2 , 350mm 2 or 600mm 2 .
- a non-invasive method for collecting a sample of intestinal or bowel cells or cell fragments comprising taking a swab of mucocellular layer material originating from said bowel or intestine from the surface of the anal area in the vicinity of the exterior opening of the anal canal, wherein said swab is taken following defaecation.
- the swab is taken prior to cleaning the area.
- bowel disease may be a IBD, colorectal cancer, anal cancer or advanced colorectal polyps.
- kits are suitable for implementing any of the above described methods.
- the kit comprises at least one antibody, wherein each of said antibody is capable of binding to at least one IBD-specific biomarker or a fragment or variant thereof.
- the antibody is capable of binding to EDN and/or calprotectin or a fragment or variant thereof.
- the kit comprises at least one antibody capable of binding S100A12, or a fragment or variant thereof.
- the kit comprises at least one antibody capable of binding ICAM1 , or a fragment or variant thereof.
- the kit comprises agents for the detection of the at least one antibody binding to said biomarker.
- the kit comprises instructions for use.
- the kit comprises a positive control sample.
- the kit comprises at least one swab.
- the kit comprises two swabs.
- the kit further comprises a sample tube.
- the sample tube comprises a material-lysing lysis buffer.
- the sample tube may further comprise a material-preserving buffer.
- the kit may further comprise a fixative for cytological samples.
- the kit may further comprise a sampling card containing at least one, preferably two, microscope slides.
- the kit further comprises a lateral flow assay.
- the kit comprises an electrochemical biosensor or biosensors.
- the value may be either end-point of the range, or a value within the stated range.
- the threshold value is between 15ng/ml and 35 ng/ml
- this value is of 15ng/ml and 35ng/ml.
- FIGURE 1 shows a cross section of the human rectum, anus and adjacent organs A -
- the rectum is empty between two normal acts of defaecation. Gradual accumulation of the colonic mucocellular layer is progressing.
- FIGURE 2 Features of the swab used for collecting colonic mucocellular layer samples from the anal area of a human subject suspected of being affected with inflammatory bowel disease immediately following bowel opening.
- FIGURE3a Photomicrograph of a sample of colonic mucocellular layer obtained using the swab shown in Figure 2 from a healthy volunteer. The sample was placed on a microscope slide and stained with haematoxylin and eosin. The main feature of samples obtained from healthy people was scarcity of cellular material. Exfoliated normal colonocytes (two colonocytes are marked by arrows) constituted the predominant cell type in such samples.
- FIG 3b Photomicrograph of a sample of colonic mucocellular layer obtained using the swab shown in Figure 2 from a patient with ulcerative colitis (UC). The sample was placed on a microscope slide and stained with haematoxylin and eosin. Samples obtained from UC patients were characterised by abundant presence of very well preserved free inflammatory cells, especially polymorhonuclear leukocytes comprising neutrophils (multiple cells with segmented nuclei that can be seen) and eosinophils. Erythrocyte presence (several erythrocytes are present) was also common reflecting frequent bleeding.
- UC ulcerative colitis
- Figure 3c Photomicrograph of a sample of colonic mucocellular layer obtained using the swab shown in Figure 2 from a patient with Crohn's disease (CD) predominantly affecting ileum (proximal CD). The sample was placed on a microscope slide and stained with haematoxylin and eosin. Proximal CD cases were often characterised by the presence of distinguishable, but damaged polymorphonuclear leukocytes ("leukocyte shadows”) marked by arrows.
- leukocyte shadows polymorphonuclear leukocytes
- FIG. 4a EDN concentrations (ng/ml) measured in lysates of colonic mucocellular layer samples obtained from eight healthy volunteers (white squares), 1 1 patients with IBS (grey squares), 14 patients with Crohn's disease (CD - white stars) and 15 IBD patients with UC (grey stars). All measured samples from patients with CD and UC were obtained before treatment initiation. Results in the control and IBS groups were uniformly low (all EDN concentration values were below 24 ng/ml). Among IBD patients EDN concentrations were higher in the UC subgroup, where all results were above 24 ng/ml. In the CD subgroup four results were below this threshold (all three cases of ileal CD were among them). Result distributions did not deviate from normal distribution allowing application of parametric statistics.
- FIG. 4b Receiver Operating Characteristic (ROC) curve illustrating EDN test sensitivity and specificity for detecting CD (14 patients with CD were compared with 19 individuals from control and IBS groups). Area under the curve is 0.876.
- Figure 4c ROC curve illustrating EDN test sensitivity and specificity for detecting UC (15 patients with UC were compared with 19 individuals from control and IBS groups). Area under the curve is 1 .000.
- FIG. 5a EDN concentrations (ng/ml) measured in lysates of colonic mucocellular layer samples obtained from healthy volunteers and patients with IBS (pooled results from 19 individuals) and IBD patients (pooled results from 29 cases). Average EDN concentration value in the IBD group was 24.7-fold higher than in the control & IBS group.
- Figure 6a Calprotectin concentrations ⁇ g/ml) measured in lysates of colonic mucocellular layer samples obtained from eight healthy volunteers (white squares), 1 1 patients with IBS (grey squares), 14 patients with Crohn's disease (CD - white stars) and 15 IBD patients with UC (grey stars). All measured samples from patients with CD and UC were obtained before treatment initiation. Results in the control and IBS groups were uniformly low (all calprotectin concentration values are below 4.7 ⁇ g/ml). Among IBD patients calprotectin concentrations were higher in the UC subgroup, where all results except two were above 4.7 ⁇ g/ml. In the CD subgroup four results were below this threshold (there were no ileal CD cases among them).
- FIG. 6b ROC curve illustrating calprotectin test sensitivity and specificity for detecting CD (14 patients with CD were compared with 19 individuals from control and IBS groups). Area under the curve is 0.917 (slightly higher than for EDN).
- Figure 6c ROC curve illustrating calprotectin test sensitivity and specificity for detecting UC (15 patients with UC were compared with 19 individuals from control and IBS groups). Area under the curve is 0.944 (lower than for EDN).
- Figure 7a Calprotectin concentrations ⁇ g/ml) measured in lysates of colonic mucocellular layer samples obtained from healthy volunteers and patients with IBS (pooled results from 19 individuals) and IBD patients (pooled results from 29 cases). Average calprotectin concentration value in the IBD group was 9.1 -fold higher than in the control & IBS group.
- Figure 7b ROC curve illustrating calprotectin test sensitivity and specificity for detecting IBD (29 patients with IBD were compared with 19 individuals from control and IBS groups). Area under the curve is 0.931 .
- Overall performance of the calprotectin test for IBD detection appeared to be inferior in comparison with the EDN test.
- FIGURE 8 S100A12 protein concentrations (ng/ml) measured in lysates of colonic mucocellular layer samples obtained from seven healthy volunteers (white squares), 1 1 patients with IBS (grey squares), 14 patients with Crohn's disease (CD - white stars) and 15 IBD patients with UC (grey stars). All measured samples from patients with CD and UC were obtained before treatment initiation. Results in the control and IBS groups were mostly low. A wide range of results was observed among IBD patients. In the CD group the majority of patients had low S100A12 concentrations, whereas elevated levels of this protein were detected in most cases of UC. Application of parametric statistics produced visibly exaggerated mean estimates in the IBS and CD groups, therefore median values and 95% confidence intervals are shown as well. Although S100A12 test could be considered for UC detection, its performance for detecting CD and IBD in general was clearly inferior compared to EDN and calprotectin tests.
- FIGURE 9 ICAM1 protein concentrations (pg/ml) measured in lysates of colonic mucocellular layer samples obtained from eight healthy volunteers (white squares), 1 1 patients with IBS (grey squares), 14 patients with Crohn's disease (CD - white stars) and 15 IBD patients with UC (grey stars). All measured samples from patients with CD and UC were obtained before treatment initiation. Results in the control and IBS groups were mostly low, however high values were observed in one control and two IBS patients. Result distribution was clearly bimodal in the CD group with no ICAM1 presence detectable in seven cases. In contrast, ICAM1 was detected in all UC cases (only one result below 150pg/ml).
- the first step comprised determination of the following two ratios: a) detected EDN concentration/EDN test optimal cut-off point (24ng/ml); b) detected calprotectin concentration/calprotectin test optimal cut-off point (4.7 ⁇ g/ml).
- the obtained two ratios for each individual were compared and the higher of each two values was used as the result for the individual. Ratios below or equal to 1 .0 were interpreted as negative results, whereas ratios above 1 .0 were interpreted as positive results. It is remarkable that negative results were obtained in all subjects from the control and IBS groups. In contrast, only one negative result (one CD case) was observed in the IBD group.
- FIG. 11 b ROC curve illustrating sensitivity and specificity of ICAM1 -corrected combined test (see Figure 1 1 a) for discriminating UC from CD among IBD patients (14 patients with CD were compared with 15 patients with UC). Area under the curve is 0.919.
- Figure 12a Dynamics of changes in EDN concentrations (ng/ml) in lysates of colonic mucocellular layer samples obtained from four IBD patients (all UC cases) before therapy initiation and at different time points during therapy. EDN concentration changes reflect changes in colonic inflammation intensity in these patients. Considerable decrease in EDN concentrations is observed in all four patients by day 30 following treatment initiation indicates reduction of inflammation intensity resulting from successful therapeutic interventions.
- Figure 12b Dynamics of changes in EDN concentrations (ng/ml) in lysates of colonic mucocellular layer samples obtained from other four IBD patients (two UC and two CD cases) before therapy initiation and at different time points during therapy. Increasing or disorderly fluctuating EDN concentrations suggest that therapeutic interventions may require modifications in order to provide adequate anti-inflammatory effect in these patients.
- Figure 13a Dynamics of changes in soluble cytokeratin - 18 (CK18) concentrations (U/l) measured by M65 assay in lysates of colonic mucocellular layer samples obtained from four IBD patients (all UC cases already shown in Figure 12a) before therapy initiation and at different time points during therapy.
- CK18 patterns are likely to reflect the presence of epithelial damage in the colonic mucosa of these patients.
- Considerable decrease in CK18 concentrations is observed in all four patients by day 30 following treatment initiation indicating positive therapeutic effect manifested by mucosal healing.
- Figure 13b Dynamics of changes in soluble cytokeratin - 18 (CK18) concentrations (U/l) measured by M65 assay in lysates of colonic mucocellular layer samples obtained from other four IBD patients (two UC and two CD cases already shown in Figure 12b) before therapy initiation and at different time points during therapy. Persistently high or disorderly fluctuating CK18 concentrations suggest that therapeutic interventions may require modifications in order to provide adequate epithelial healing in these patients.
- CK18 soluble cytokeratin - 18
- the present inventors have also surprisingly identified that within this sample a number of biomarkers, specifically IBD-specific biomarkers, can be accurately detected and their concentration levels measured, and moreover, that there exists a threshold value for these biomarkers wherein concentration values above this threshold is indicative of IBD.
- the mechanism of defaecation provides a level of physiological standardisation in the sample that can subsequently be obtained as a result from the surface of the external anal/perianal area.
- a level of uniformity in the sample cannot be obtained if the sample is obtained using an invasive procedure, such as using a swab to directly sample the rectal mucosa (internally) or by using previously devices for the collection of such a sample.
- the physiological mechanisms behind this method of sample collection are presented in Fig 1 .
- colonic mucocellular layer should be depleted in the rectum following defaecation. For this reason the necessity of the distinct physiological act of defaecation as a prerequisite for sample collection according to the method disclosed in this invention constitutes an important natural standardizing factor.
- a sample of the colonic mucocellular layer is collected, it is placed in a tube with a buffer or medium. Then the sample can be either shipped to a laboratory for analytical assessment or immediately analysed using a lateral flow assay or a biosensor-based quantitative test.
- 'inflammatory bowel disease' or 'IBD' is meant a group of chronic disorders involving bowel inflammation. Included within this group are Crohn's disease (including ileitis, Ileocolic, and colitis) and ulcerative colitis (including distal, proctitis, proctosigmoiditis, left-sided colitis, extensive colitis and pancolitis), Inflammatory bowel disease may also include microscopic colitis (comprising collagenous colitis and lymphocytic colitis), ischaemic colitis, diversion colitis, allergic colitis, indeterminate colitis and Behget's disease.
- Crohn's disease including ileitis, Ileocolic, and colitis
- ulcerative colitis including distal, proctitis, proctosigmoiditis, left-sided colitis, extensive colitis and pancolitis
- Inflammatory bowel disease may also include microscopic colitis (comprising collagenous colitis and lymphocytic colitis), ischaemic colitis,
- 'eosinophil-derived neurotoxin' or 'EDN' refers to the protein encoded by the RNASE2 gene and can be represented by the following sequence (SEQ ID NO: 1 ): SEQ ID NO: 1 mvpklftsqi clllllglla vegslhvkpp qftwaqwfet qhinmtsqqc tnamqvinny qrrcknqntf llttfanvvn vcgnpnmtcp snktrknchh sgsqvplihc nlttpspqni sncryaqtpa nmfyivacdn rdqrrdppqy p vpvhldri i
- the nucleic acid sequence encoding EDN (M30510.1 ) is incorporated herein by reference.
- the term 'calprotectin' refers to different heterodimers and tetramers of the proteins encoded by the S100 calcium-binding protein A8 (S100A8) gene and by the S100 calcium-binding protein A9 (S100A9) and can be represented by the following sequences (SEQ ID No: 2 and SEQ ID No: 3): SEQ ID NO: 2: mltelekaln siidvyhkys likgnfhavy rddlkkllet ecpqyirkkg advwfkeldi ntdgavnfqe flilvikmgv aahkkshees hke
- S1008A (NM_002964.4) is incorporated herein by reference.
- nucleic acid sequence encoding S100A9 (NM_002965.3) is incorporated herein by reference.
- 'S100A12' refers to the protein encoded by the S100A12 gene and can be represented by the following sequence (SEQ ID NO: 4).
- SEQ ID NO: 4 mtkleehleg ivnifhqysv rkghfdtlsk gelkqlltke lantiknikd kavideifqg ldanqdeqvd fqefislvai alkaahyhth ke
- S100A12 NM_005621 .1 .
- 'ICAM1 ' or 'intracellular adhesion molecule 1 ' refers to the protein encoded by the ICAM1 gene and can be represented by the following sequence (SEQ ID NO: 5):
- nucleic acid enclosing ICAM1 (NM_000201 .2) is incorporated herein by reference.
- fragment' refers to a portion of the amino acid or nucelotide sequence that is less than the complete length and includes at least a minimum length capable of maintaining the biological properties required in the present invention.
- variant' refers to the protein sequence where the amino acids are substantially identical to SEQ ID NO: 1 , 2, 3, 4 or 5.
- a variant retains the biological function and activity of the protein in question.
- the variant may be achieved by modifications such as insertion, substitution or deletion of one or more of the amino acids.
- the variant thereof has at least 50%, at least 55%, at least 60%, at least 65%, at least 70%, at least 75%, at least 80%, at least 85%, at least 90%, at least 91 %, at least 92%, at least 93%, at least 94%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% identity to SEQ ID NO:1 , 2, 3 or 4.
- An 'IBD-specific biomarker' refers to a protein (or nucleic acid) that causes or is associated with the presence of inflammatory bowel disease.
- the biomarker may selected from the group consisting of eosinophil-derived neurotoxin (EDN), calprotectin, S100A12, ICAM1 , CK-18, D-dimer, TNF-a, ASCA, pANCA, anti- GP2 antibodies, lactoferrin and total amount of human DNA in the sample.
- EDN eosinophil-derived neurotoxin
- a 'subject' as described herein can be any subject having an inflammatory bowel disorder.
- the subject can be any mammal, such as a human, including a human IBD patient.
- exemplary nonhuman mammals include a nonhuman primate (such as a monkey or ape) and a rodent, such as mouse or rat.
- a 'lysis buffer' refers to any solution or buffer solution used for the purpose of lysing cells.
- the composition of the lysis buffer would be known to the skilled person.
- the lysis buffer may comprise Tris-HCL, NaCI, Triton X-100.
- the lysis buffer may alternatively or additionally comprise EDTA, EGTA, SDS, deoxycholate, and/or NP-40.
- the term 'treatment' refers to the management of a patient through medical or surgical means.
- the treatment improves or alleviates at least one symptom of a medical condition or disease and is not required to provide a cure.
- the treatment can encompass any known treatment for IBD.
- anti-inflammatory drugs may be sulfasalazine, mesalamine, balsalazide, blsalazin and corticosteroids.
- the treatment may be an immune system suppressor. Examples include azathioprine, mercaptopurine, cyclosporine, infliximab, adalimumab, certolizumab pegol, methotrexate and natalizumab.
- antibiotics for example, metronidazole and ciprofloxacin
- ICAM1 inhibitors alicaforsen
- anti-diarrheal drugs laxatives
- iron supplements vitamin B12, calcium and vitamin D supplements or a patient-specific diet.
- the treatment may comprise surgery to remove part or all of the patient's intestine, colon and/or rectum.
- the term 'antibody' as used herein refers to any immunolglobulin, preferably a full- length immunoglobulin.
- the term covers monoclonal antibodies, polyclonal antibodies, multispecific antibodies, such as bispecific antibodies, intracellular antibodies (or intrabodies) and antibody fragments thereof, so long as they exhibit the desired biological activity.
- Antibodies may be derived from any species, but preferably are of rodent, for examples rat or mouse, human or rabbit origin.
- the antibodies, preferably monoclonal antibodies may be humanised, chimeric or antibody fragments thereof.
- the term 'chimeric antibodies' may also include "primatised" antibodies comprising variable domain antigen-binding sequences derived from a non- human primate (e.g., Old World Monkey, Ape etc) and human constant region sequences.
- the immunoglobulins can also be of any type (e.g. IgG, IgE, IgM, IgD, and IgA), class (e.g., IgGI, lgG2, lgG3, lgG4, IgAI and lgA2) or subclass of immunoglobulin molecule.
- the term 'monoclonal antibody' refers to a substantially homogenous population of antibody molecules (i.e. the individual antibodies comprising the population are identical except for possible naturally occurring mutations that may be present in minor amounts), produced by a single clone of B lineage cells, often a hybridoma. Importantly, each monoclonal has the same antigenic specificity - i.e. it is directed against a single determinant on the antigen.
- monoclonal antibodies can be carried out by methods known in the art.
- the monoclonal antibodies can be made by the hybridoma method (Kohler & Milstein, 1975 ), the human B cell hybridoma technique (Kozbor & Roder , 1983 ), or the EBV-hybridoma technique (Cole et al, 1985 .
- the monoclonal antibody can be produced using recombinant DNA methods (see, US Pat. App. No. 4,816,567) or isolated from phage antibody libraries using the techniques described in Clackson et al (1991 ) and Marks et al (1991 ).
- Polyclonal antibodies are antibodies directed against different determinants (epitopes). This heterogenous population of antibody can be derived from the sera of immunised animals using various procedures well known in the art.
- the term 'bispecific antibody' refers to an artificial antibody composed of two different monoclonal antibodies. They can be designed to bind either to two adjacent epitopes on a single antigen, thereby increasing both avidity and specificity, or bind two different antigens for numerous applications, but particularly for recruitment of cytotoxic T- and natural killer (NK) cells or retargeting of toxins, radionuclides or cytotoxic drugs for IBD treatment (Holliger & Hudson, 2005).
- the bispecific antibody may have a hybrid immunoglobulin heavy chain with a first binding specificity in one arm, and a hybrid immunoglobulin heavy chain-light chain pair (providing a second binding specificity) in the other arm.
- This asymmetric structure facilitates the separation of the desired bispecific compound from unwanted immunoglobulin chain combinations, as the presence of an immunoglobulin light chain in only one half of the bispecific molecule provides for a facile way of separation (WO94/04690; Suresh et al, 1986; Rodrigues et al, 1993; ; Carter et al, 1992; Carter et al, 1995; Merchant et al, 1998).
- bispecific antibodies can be produced by fusion of two hybridomas into a single 'quadroma' by chemical cross-linking or genetic fusion of two different Fab or scFv modules (Holliger & Hudson, 2005 ).
- 'chimeric' antibody refers to an antibody in which different portions are derived from different animal species.
- a chimeric antibody may derive the variable region from a mouse and the constant region from a human.
- a 'humanised antibody' comes predominantly from a human, even though it contains non-human portions.
- humanised antibodies are human immunoglobulins (recipient antibody) in which residues from a hypervariable region of the recipient are replaced by residues from hypervariable regions of a non-human species (donor antibody) such as mouse, rat, rabbit or nonhuman primate having the desired specificity, affinity and capacity.
- donor antibody such as mouse, rat, rabbit or nonhuman primate having the desired specificity, affinity and capacity.
- framework region (FR) residues of the human immunoglobulin are replaced by corresponding non-human residues.
- humanised antibodies may comprise residues that are not found in the recipient antibody or in the donor antibody. These modifications are made to further refine antibody performance.
- the humanised antibody will comprise substantially all of at least one, and typically two, variable domains, in which all or substantially all of the hypervariable loops correspond to those of a non-human immunoglobulin and all or substantially all of the FRs are those of a human immunoglobulin sequence.
- the humanised antibody optionally also will comprise at least a portion of an immunoglobulin constant region (Fc), typically that of a human immunoglobulin.
- Recombinant antibodies such as chimeric and humanised monoclonal antibodies can be produced by recombinant DNA techniques known in the art.
- Completely human antibodies can be produced using transgenic mice that are incapable of expressing endogenous immunoglobulin heavy and light chains genes, but which can express human heavy and light chain genes.
- the transgenic mice are immunized in the normal fashion with a selected antigen.
- Monoclonal antibodies directed against the antigen can be obtained using conventional hybridoma technology.
- the human immunoglobulin transgenes harboured by the transgenic mice rearrange during B cell differentiation, and subsequently undergo class switching and somatic mutation.
- the term 'antigen-binding fragment' in the context of the present invention refers to a portion of a full length antibody where such antigen-binding fragments of antibodies retain the antigen-binding function of a corresponding full-length antibody.
- the antigen-binding fragment may comprise a portion of a variable region of an antibody, said portion comprising at least one, two, preferably three CDRs selected from CDR1 , CDR2 and CDR3.
- the antigen-binding fragment may also comprise a portion of an immunoglobulin light and heavy chain.
- antibody fragments include Fab, Fab', F(ab')2, scFv, di-scFv, and BiTE (Bi-specific T-cell engagers), Fv fragments including nanobodies, diabodies, diabody-Fc fusions, triabodies and, tetrabodies; minibodies; linear antibodies; fragments produced by a Fab expression library, anti- idiotypic (anti-Id) antibodies, CDR (complementary determining region), and epitope- binding fragments of any of the above that immunospecifically bind to a target antigen.
- a full length antibody termed 'antibody' is one comprising a VL and VH domains, as well as complete light and heavy chain constant domains.
- the antibody may also have one or more effector functions, which refer to the biological activities attributable to the Fc region (a native sequence Fc region or amino acid sequence variant Fc region engineered according to methods in the art to alter receptor binding) of an antibody.
- effector functions include Clq binding; complement dependent cytotoxicity; Fc receptor binding; antibody-dependent cell-mediated cytotoxicity (ADCC); phagocytosis; down regulation of cell surface receptors (e.g., B cell receptor; BCR), etc.
- the antibody can also be a functionally active fragment, derivative or analog of an antibody that immunospecifically binds to a target antigen.
- functionally active means that the fragment, derivative or analog is able to elicit anti-idiotype antibodies that recognise the same antigen that the antibody from which the fragment, derivative or analog is derived recognised.
- the antigenicity of the idiotype of the immunoglobulin molecule can be enhanced by deletion of framework and CDR sequences that are C-terminal to the CDR sequence that specifically recognizes the antigen.
- synthetic peptides containing the CDR sequences can be used in binding assays with the antigen by any binding assay method known in the art (e.g., the BIA core assay), see, for example, Kabat (1980) and Kabat et al (1991 ).
- the term 'antibody' may also include a fusion protein of an antibody, or a functionally active fragment thereof, for example in which the antibody is fused via a covalent bond (e.g., a peptide bond), at either the N-terminus or the C-terminus to an amino acid sequence of another protein (or portion thereof, such as at least 10, 20 or 50 amino acid portion of the protein) that is not the antibody.
- a covalent bond e.g., a peptide bond
- the antibody or fragment thereof may be covalently linked to the other protein at the N-terminus of the constant domain.
- the antibody or antigen-binding fragments of the present invention may include analogs and derivatives of antibodies or antigen-binding fragments thereof that are either modified, such as by the covalent attachment of any type of molecule as long as such covalent attachment permits the antibody to retain its antigen binding immunospecificity.
- modifications include glycosylation, acetylation, pegylation, phosphorylation, amidation, derivatization by known protecting/blocking groups, proteolytic cleavage, linkage to a cellular antibody unit or other protein, etc. Any of numerous chemical modifications can be carried out by known techniques, including, but not limited to specific chemical cleavage, acetylation, formylation, metabolic synthesis in the presence of tunicamycin, etc.
- the analog or derivative can contain one or more unnatural amino acids.
- the antibodies or antigen-binding fragments of the present invention may also have modifications (e.g., substitutions, deletions or additions) in the Fc domain of the antibody. Specifically, the modifications may be in the Fc-hinge region and result in an increased binding for the FcRn receptor (W097/34631 ).
- the concentration of at least one IBD- specific biomarker, or fragment or variant thereof is measured in a sample of the colonic mucocellular layer and compared to a threshold value.
- the threshold value may be determined by determining the concentration of the IBD-specific biomarker in a group of one or more control subjects. Preferably this group comprises at least five control subjects. More preferably this group comprises at least ten control subjects.
- the methods may further comprise the following steps:
- IBD-specific biomarker for example EDN, calprotectin, ICAM1 or S100A12
- concentration levels of said IBD-specific biomarker for example EDN, calprotectin, ICAM1 or S100A12
- the at least one control subject represents a control or reference cohort and the concentration of the at least one IBD-specific biomarker is compared to the median concentration level in said control or reference cohort.
- the control sample i.e. the sample obtained from the at least one control subject
- the reference cohort is preferably healthy subjects. More preferably the subjects are believed not to have an IBD (or have inflammatory bowel syndrome (IBS), but not IBD).
- the individual members of a reference cohort may also share other similarities, such as similarities in stage of disease, previous treatment regimens, lifestyle (e.g., smokers or nonsmokers, overweight or underweight), or other demographics (e.g., age, genetic disposition).
- the threshold value defines a fractile of a distribution of measured concentrations for a population of control subjects without IBD.
- said fractile is a 0.9 or greater tractile.
- said distribution is assumed to be a Gaussian distribution.
- the threshold value identifies that said subject is IBD- positive with greater than a threshold value.
- said threshold value is associated with a defined probability of determining that said subject has IBD, when said subject has IBD.
- said defined probability is greater than 60%, preferably 65%, preferably 70%, preferably 75%, preferably 80%, preferably 85%, preferably 90%, preferably 95%, preferably 100%.
- the concentration levels of a biomarker for example, EDN, calprotectin, ICAM1 or S100A12
- concentration levels of a biomarker for example, EDN, calprotectin, ICAM1 or S100A12
- concentration levels of a biomarker can be measured and compared with a predetermined reference value.
- the 'predetermined reference value' or 'threshold concentration' can be established by skilled healthcare practitioners.
- the predetermined reference value can be established by measuring the levels of the biomarker in a normal population sample and correlating such levels with factors such as the incidence, severity, and/or frequency of developing IBD.
- a subject's concentration levels of the biomarker as compared against the concentration levels in a normal population can be indicative of whether the subject has IBD.
- the predetermined reference value is preferably established by using the same assay technique as is used for measurement of the subject's biomarker level, to avoid any error in standardization.
- the sample of the colonic mucocellular layer from the control subject may be obtained from the surface of the anal area following defaecation.
- the invention also relates to a method for monitoring the effectiveness of a treatment for IBD.
- the method comprises measuring the concentration levels of an IBD-specific biomarker over the course of a treatment period. If the concentration levels rise or stay the same compared to the levels pre-treatment or increase compared to a predetermined threshold value, the treatment can be concluded to be ineffective. Alternatively, if the concentration levels decrease compared to the levels pre-treatment or decrease compared to a predetermined threshold value, the treatment can be concluded to be effective. As a consequence the treatment may need to be altered or the dosage of the existing treatment.
- the test sample is from a patient who has received or is receiving treatment.
- the method may further comprise the steps of (i) optionally obtaining a pre-treatment sample from a patient prior to administration of the treatment; (ii) optionally detecting or measuring the concentration of the IBD-specific biomarker in the pre-treatment sample; (iii) obtaining one or more post-treatment samples from the subject at selected time intervals; (iv) determining the concentration levels of the IBD-specific biomarker in the post-treatment sample(s) ; (v) comparing the concentration levels of the IBD-specific biomarker in the pre-treatment sample with the concentration levels in the post- treatment sample or samples or comparing the concentration levels in the post- treatment samples taken at different time intervals; and (vi) optionally altering the administration of the treatment to the subject accordingly.
- the invention also relates to a method for monitoring disease relapse in an IBD patient in remission.
- the method comprises measuring the concentration levels of an IBD-specific biomarker over specified time intervals.
- IBD is a life-long condition and so there is no upper time-limit for measuring the concentration levels of an IBD-specific biomarker in an IBD patient in remission. This will be the case unless the patient undergoes a radical procedure such as colectomy.
- the method could comprise measuring the concentration levels of an IBD-specific biomarker once every 12 months, preferably every 6 months, more preferably every 3 months. The patient may or may not still be receiving treatment for IBD.
- the patient can be concluded to be out of remission - i.e. the disease has relapsed.
- concentration levels rise to be equal or greater than a threshold value the patient can be concluded to be out of remission.
- the treatment may need to be altered (or the dosage of an existing treatment altered) or treatment resumed all together.
- the concentration levels stay the same or decrease over the specified time intervals, or if the levels decrease with respect to a threshold value, the patient can be concluded to be still in remission.
- the method may further comprise the steps of (i) obtaining a sample from an IBD-patient in remission at one or more time intervals, ii) comparing said concentration levels to a threshold value and determining a disease relapse when the concentration of the IBD-specific biomarker is equal to or greater than a threshold value and iii) optionally re-starting or altering the administration of treatment to the subject accordingly.
- the invention also relates to a method of selecting a treatment for an IBD patient.
- the method comprises measuring the concentration levels of an IBD-specific biomarker and comparing the concentration level to a threshold value. If the concentration of the IBD-specific biomarker is above this threshold an IBD-specific treatment may be selected. However, if the concentration of the IBD-specific biomarker is below this threshold, no treatment may be selected.
- the concentration of the IBD-specific biomarker is indicative that the patient will respond to a specific type of therapy. This specific therapy may be directed against or be specific to the IBD-specific biomarker in question. For example, if the IBD-specific biomarker is ICAM1 , the IBD-specific treatment may be alicaforsen.
- the IBD-specific treatment may be infliximab. Accordingly, we also describe herein a method of tailoring or selecting a specific IBD-treatment depending on which IBD-specific biomarker is elevated in the patient's sample.
- a method of predicting a response to a particular IBD-specific treatment comprising measuring the concentration levels of at least one IBD-specific biomarker, comparing the concentration level(s) to a threshold value and determining whether a subject will respond to a particular IBD-specific treatment depending on whether the concentration of the IBD-specific biomarker is equal to or greater than a threshold value.
- the threshold value for an IBD-specific biomarker may be any threshold value already mentioned above.
- a method for assessing colonic mucosa damage comprises measuring the concentration levels of at least one epithelial damage-specific biomarker, comparing the concentration level(s) to a threshold value and determining that the colonic mucosa is damaged when the concentration of at least one epithelial damage-specific biomarker is equal to or greater than a threshold value.
- 'epithelial damage specific biomarkers' means biomolecules released during epithelial cell death or their metabolites. Examples include proteins such as soluble cytokeratine - 18 (CR-18) and intestinal fatty acid binding protein (l-FATP) and smaller molecules such as a-amino acide citrulline.
- proteins such as soluble cytokeratine - 18 (CR-18) and intestinal fatty acid binding protein (l-FATP) and smaller molecules such as a-amino acide citrulline.
- the epithelial damage-specific biomarker is CK-18 (Cytokeratin-18) and the threshold value is, or is equivalent to 300 U/L when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of CK-18 is, or is equivalent to a value, equal to or greater than 500 U/L when the collected sample is lysed in 3ml of lysis buffer. In a further alternative embodiment the concentration of CK-18 is or is equivalent to a value, equal or greater than a concentration value within the range 100 U/L to 35 U/L when the collected sample is lysed in 3ml of lysis buffer.
- the concentration of the IBD-specific biomarker can be determined by measuring protein levels (i.e. protein concentration) of the respective IBD-specific biomarker.
- protein levels can be measured by contacting the sample with at least one binding agent, such as an antibody, that is capable of specifically binding the IBD- specific biomarker in question.
- the fragments that are immunogenic will lead to generation of antibodies.
- Protein fragments can be readily screened for immunogenic activity.
- the method further comprises determining whether the antibody has bound to the protein - i.e. whether an antibody-antigen complex has formed.
- the formation of an antibody-antigen complex is measured using immunoassay.
- the immunoassay is an ELISA kit.
- bound antibody can be detected using any method known in the art. Examples include 2D gels and ID SDS-PAGE followed by western blotting, dot-blots, and flow cytometry. Alternatively bound antibody is measured using a lateral flow assay or in a quantitative biosensor-based assay employing electrochemical biosensors.
- the methods further comprise detection or quantitation of the antigen- antibody complex.
- detection chemicals comprise a labelled polymer conjugated to a secondary antibody.
- a secondary antibody that is conjugated to an enzyme that catalyses the deposition of a chromogen at the antigen-antibody binding site may be provided.
- enzymes and techniques for using them in the detection of antibody binding are well known in the art.
- the secondary antibody is conjugated to an HRP-labelled polymer.
- the antigen-antibody complex can be detected using any commercial antibody binding detection system. Examples include BIO-PLEX by Bio-Rad and fluorescent labels.
- the methods further comprise the following steps:
- a test sample from a subject with a binding agent specific for the biomarker in question, e.g. an antibody as described herein, which is directly or indirectly labeled with an enzyme;
- a binding agent specific for the biomarker in question e.g. an antibody as described herein, which is directly or indirectly labeled with an enzyme
- Another embodiment of the invention comprises the following steps: (a) incubating a test sample with a first antibody specific for the IBD-specific biomarker in question which is directly or indirectly labeled with a detectable substance, and a second antibody specific for the biomarker which is immobilized;
- the concentration of the IBD-specific biomarker can be determined by measuring expression levels of the respective IBD-specific biomarker. This may comprise detection or measurement of DNA or RNA of the IBD-specific biomarker. Methods to detect RNA or DNA levels in a sample are well known to the skilled person and include any nucleic-acid hybridisation-based technique or amplification-based technique such as PCR (including all forms of PCR, such as real- time), a lateral flow assay or an electrochemical biosensor-based assay.
- Kits for practicing the methods of the invention are further provided.
- a 'kit' refers to any manufacture (e.g., a package or a container) comprising at least one reagent, e.g. a binding agent such as an antibody, for specifically detecting the concentration levels of an IBD-specific biomarker described herein.
- the kit may be promoted, distributed, or sold as a unit for performing the methods of the present invention. Additionally, the kits may contain a package insert describing the kit and methods for its use.
- the kit may also comprise a solid support such as microtiter multi-well plates, a lateral flow assay or an electrochemical biosensor-based assay.
- the kit can contain reagents, tools, and instructions for determining an appropriate therapy for an IBD patient.
- a kit can include reagents for collecting a sample from a patient, such as a swab, and reagents for processing the sample.
- the kit can also include one or more reagents for detecting the concentration levels of the biomarker.
- the kit may also comprise one or more reagents for performing a gene expression analysis, such as reagents for performing RT-PCR, Northern blot, Western blot analysis, or immunohistochemistry to determine biomarker expression levels in a patient sample. Appropriate buffers for the assays can also be included.
- a kit can contain separate containers, dividers or compartments for the reagents and informational material.
- kits for practicing the methods of the invention are provided. Such kits are compatible with both manual and automated immunohistochemistry techniques (e.g., cell staining). These kits comprise at least one antibody capable of specifically binding to at least one of the IBD-specific biomarkers of the present invention. Chemicals for the detection of antibody binding to the biomarker in question, a counterstain, and a bluing agent to facilitate identification of positive staining cells are optionally provided. Alternatively, the immunochemistry kits of the present invention are used in conjunction with commercial antibody binding detection systems, such as, for example the BIOPLEX assay by Bio-Rad. Any chemicals that detect antigen-antibody binding may be used in the practice of the invention.
- the detection chemicals comprise a labelled polymer conjugated to a secondary antibody.
- a secondary antibody that is conjugated to an enzyme that catalyses the deposition of a chromogen at the antigen-antibody binding site may be provided.
- the kit comprises a secondary antibody that is conjugated to an HRP-labelled polymer. Chromogens compatible with the conjugated enzyme (e.g., DAB in the case of an HRP-labeled secondary antibody) and solutions, such as hydrogen peroxide, for blocking non-specific staining may be further provided.
- the kits of the present invention may also comprise a counterstain, such as, for example, hematoxylin.
- a bluing agent e.g., ammonium hydroxide
- the immunohistochemistry kits of the invention comprise at least two reagents, e.g., antibodies, for the detection of more than one IBD-specific biomarker.
- Each antibody may be provided in the kit as an individual reagent or, alternatively, as an antibody cocktail comprising all of the antibodies directed to the different biomarkers of interest.
- any or all of the kit reagents may be provided within containers that protect them from the external environment, such as in sealed containers.
- Positive and/or negative controls may be included in the kits to validate the activity and correct usage of reagents employed in accordance with the invention. Controls may include samples, such as tissue sections, cells fixed on glass slides, etc., known to be either positive or negative for the biomarker in question. The design and use of controls is standard and well within the routine capabilities of those of ordinary skill in the art.
- the present invention describes a new diagnostic method for IBD detection and intestinal inflammation intensity assessment comprising the following key elements that can be combined as a sequence of steps: 1 .
- cytological patterns can be indicative of the presence or absence of said inflammatory bowel disorder and IBD type (ulcerative colitis or Crohn's disease);
- biomarker levels indicate the presence or absence of said inflammatory bowel disorder and provide an estimate of inflammation intensity
- biomarker levels indicate the presence or absence of said inflammatory bowel disorder and provide an estimate of inflammation intensity when the said disorder is ulcerative colitis (UC);
- biomarker levels indicate the presence or absence of said inflammatory bowel disorder and provide an estimate of inflammation intensity when the said disorder is Crohn's disease(CD); 7. Determining the levels of biomarkers from the group comprising EDN, calprotectin, protein S100A12, intercellular adhesion molecule 1 (ICAM-1 ), soluble cytokeratin 18 (epithelial cell death marker), D-dimer (blood coagulation marker), M2- PK, TNFa, pANCA, ASCA, anti-GP2 antibodies, lactoferrin and total human DNA in said samples in order to further characterise IBD type (UC or CD), disease severity, efficiency of applied therapy and probability of response to particular therapeutic schemes;
- This invention presents a combination of elements that provide a new method for IBD diagnosis, differentiation between IBD types (UC and CD), intestinal inflammation intensity monitoring and treatment efficiency assessment.
- Application of different biomarkers also provides means for assessing IBD-related damage to colorectal epithelium and selecting adequate therapeutic modalities.
- the first key element of the new method is the use of a simple swab designed for non- invasively collecting (self-collecting) material from the anal area of a human subject suspected to have IBD following natural act of defaecation.
- the principle of the material collection method was described generally in our previous patent application WO2012/150453.
- the current working version of the swab is depicted in Figure 2.
- One specific feature of the swab is its spherical shape providing additional uniformity of the area of contact with human body surface during sample collection.
- the shape and size (8mm in diameter) of the collecting element of the swab also prevent from inadvertently introducing the swab in the anal canal during sample collection.
- the collecting element of the swab is covered with fibre with hydrophilic properties (flocked nylon) as described by Triva in U.S. Pat. No. 8,317,728.
- the fibre provides efficient sample collection and easy release of the collected material once the swab is placed in a buffer medium providing cell lysis.
- the rod of the swab has a breaking point at 100mm from the end of the collecting element ( Figure 2). This allows breaking the proximal end of the swab rod off once a collected sample is placed into a 15ml tube containing 3 ml of sample-preserving medium.
- the swabs prepared for sample collection are sterilised and provided to users sealed in plastic pockets.
- IBD patients all had a confirmed diagnosis of either ulcerative colitis (UC - in 15 cases) or Crohn's disease (CD - in 14 cases) and had presented at the clinic because of a flare-up of their disease.
- IBS patients were people with colorectal symptoms who were examined by colonoscopy and diagnosed to have IBS (IBD was excluded by clinicians). These people had presented at the clinic due to their symptoms.
- Control samples were obtained from a group of healthy volunteers without gastrointestinal symptoms or history of any disorders affecting gastrointestinal tract. All samples were taken by patients and healthy controls at home (self -collection).
- the first sample was taken from each patient prior to them starting on a course of medication intended to control their symptoms. Samples were then taken at day 10, 20, 30 and 60. The aim was to create an initial reference point before treatment (day 0-1 ) and then sample each patient twice while the symptoms of the flare-up were declining (day 10 and day 20), at day 30, when the patient's symptoms were often resolved and at day 60 in order to provide a follow-up point. Patients with IBS and healthy volunteers (controls) provided samples only once. Each trial participant was given material collection kits (one kit per collection point) comprising the following essential elements:
- one sampling card containing two microscope slides with two windows for preparing smears for cytological analysis
- the medium had the following composition: Tris - " l OmM; NaCI - 150mM; EDTA - " l OmM; Ammonium Sulfate - saturated; pH - 7.5. 3ml of the preserving medium was used for one collected sample. This sample preservation principle is described in our previous patent application (WO2012/150453).
- Lysis buffer composition was as follows: Tris - 10mM; NaCI - 150mM; Triton X-100 - 0.1 %; pH - 7.5M. Accelerated sample lysis was achieved by vigorously shaking the tubes for 15 minutes at 8000rpm using Vortex (Vortex-Genie-2, Scientific Industries Inc.) equipped with a tube-holding rack.
- sample lysis can be achieved by vertical rotation of the tubes for 30 minutes. 200 ⁇ aliquots were prepared from each sample. The prepared aliquots were immediately frozen and kept at -80 °C until use. Quantitative protein analysis in sample lysates was performed using commercially available ELISA kits for the following proteins: EDN - EDN ELISA Kit (Medical & Biological Laboratories Co., LTD, Japan); Calprotectin - CALPRO Calprotectin ELISA Test (ALP) (Nova Tec Immunodiagnostica GmbH, Germany); Protein S100A12 - CircuLex S100A12/EN-RAGE ELISA Kit (CycLex Co., Ltd, Japan); ICAM-1 - sE90548Hu Enzyme-linked Immunosorbent Assay Kit for ICAM1 (Uscn Life Science Inc., China/USA); Soluble CK18 - M65 EpiDeath ELISA (PEVIVA AB, Sweden); D- dimer - E90506Hu Enzy
- ELISA assays were performed according to manufacturers' instructions. However, sample preparation and dilution had to be optimised for each particular assay. Upon defreezing samples were diluted: 1/5 for EDN and ICAM-1 detection; 1/50 for calprotectin and S100A12 detection, 1/10 for D-dimer and total protein detection. Undiluted samples were used for soluble CK18 and GAPDH detection. All results were expressed as protein concentrations (activity units for CK-18) and recalculated for the original sample lysates presuming that 3ml of the initial preserving medium was replaced with 3ml of the lysis buffer as described above.
- Sample preservation and preparation for quantitative biomarker analysis, in particular protein analysis by ELISA comprising steps of buffer change & cell lysis, cryopreservation and pre-analysis dilution constitutes the second key element of the new method.
- Figure 3 shows photomicrographs demonstrating cytological patterns in the samples obtained from a healthy volunteer ( Figure 3a), a patient with UC ( Figure 3b) and a patient with proximal (ileal) CD (Figure 3c). It is evident that colorectal mucocellular layer samples from healthy volunteers contain only small amounts of exfoliated normal colonocytes. In contrast, samples obtained from UC patients ( Figure 3b) are characterised by abundant presence of free inflammatory cells, especially polymorhonuclear leukocytes comprising neutrophils (multiple cells with segmented nuclei) and eosinophils. Macrophages, lymphocytes and sometimes mast cells and basophils can also be found.
- the first clinically important endpoint addressed by the present invention is the detection of the presence of an inflammatory process in the gut allowing making a diagnostic conclusion on the presence of IBD.
- EDN assay appeared to be the most efficient among all tested methods. The results of this test generally followed the normal (Gaussian) distribution, and it was remarkable that EDN concentrations were uniformly low in all samples obtained from inflammation-free controls and IBS patients (see Figure 4a).
- EDN concentration determination used as a diagnostic test was especially efficient in detecting UC ( Figure 4a) with perfect (100%) sensitivity and specificity (Figure 4c). This test also performed well for diagnosing CD in most cases ( Figure 4a),.
- EDN measurement showed that average concentration of this protein among IBD patients was 24.9 times higher than among IBD-free individuals ( Figure 5a).
- the EDN-based test provided sensitivity of 86.2% and specificity of 100% for IBD detection (see ROC curve presented in Figure 5b).
- calprotectin test also followed the normal (Gaussian) distribution, and calprotectin concentrations were uniformly low (below 4.7 mg/ml) in all in all samples obtained from inflammation-free controls and IBS patients (see Figure 6a). This allowed using the concentration of 4 ⁇ g/ml as the optimal cut-off point worked out in a way similar to that described above for EDN. It could be conservatively inferred that the threshold concentration value (cut-off point) for the calprotectin test should be within the range between 3.5 ⁇ g/ml and 6.0 ⁇ g/ml if the procedure of sample collection, preparation and analysis described in this invention is used.
- Calprotectin quantification performance appeared to be slightly inferior compared to EDN for diagnosing UC ( Figures 6a & 6c), but detected CD as efficiently as the EDN-based test (compare Figures 6b and 4b). Moreover, calprotectin assay appeared to work better for detecting cases of proximal (ileal) CD (see Figure 6a and corresponding legend). Calprotectin test could also be successfully applied for overall IBD detection ( Figures 7a & 7b). Average calprotectin concentration among IBD patients was 9.1 times higher than among IBD-free subjects ( Figure 7a). At the optimal cut-off point of 4.7 ⁇ g/ml this test had sensitivity of 79.3% and 100% specificity when applied for overall IBD detection (see ROC curve presented in Figure 7b).
- Figure 12a demonstrates EDN concentration measurements made at different time points following treatment initiation in four IBD patients responding well to applied therapy. In all these cases EDN concentrations visibly decreased by day 30 or 60. EDN change patterns in other four patients who did not respond to applied therapeutic interventions are shown in Figure 12b. In these cases EDN levels remain high or even grow indicating the necessity of correcting therapeutic schemes. In particular, late increase of EDN concentration in patient #5 is likely to be an early manifestation of a new relapse (flare-up) of the disease. Patterns obtained in these patients for other inflammation markers (calprotectin, S100A12, ICAM1 ) were generally similar.
- the invented methods are based upon quantification of a range of biomarkers in non-invasively collected samples of colonic mucocellular layer.
- Diagnostic applications of the invented methods comprise: IBD detection, IBD differentiation from non-inflammatory conditions with similar clinical manifestations (in particular IBS) and differentiation between different forms of IBD (UC vs CD). All diagnostic applications are based on collecting and analysing a single sample or a set of samples within a short period of time (e.g. a single defaecation or all bowel movements within 24 hours).
- the diagnostic tests applied to these samples are designed on the basis of comparing obtained quantitative results against chosen concentration (or activity) thresholds (cut-off points) delimiting positive (i.e. likely to be associated with the presence of the disease) results above the threshold and negative (i.e. likely to be associated with the absence of the disease) results below or equal to the threshold.
- concentration or activity
- thresholds cut-off points delimiting positive (i.e. likely to be associated with the presence of the disease) results above the threshold and negative (i.e. likely to be associated with the absence of the disease) results below or equal to the threshold.
- Applications of the invented methods related to colon inflammation intensity evaluation are based upon repeated collection and analysis of samples performed at different time points over an extended period of time (e.g. therapy course or long-term monitoring of IBD patients in remission).
- the resulting sequence of test outcomes permits: evaluation of changes in the severity of inflammation as well as related mucosal damage and internal bleeding, assessment of the efficiency of applied therapy and early detection of new IBD flare-ups extremely useful for long-term monitoring of IBD patients in remission.
- the approach proposed by the invention can be highly efficient in helping to individualise IBD therapy through determining specific subsets of IBD patients requiring different therapeutic strategies. For example, ICAM-1 quantification (by a single test) can help identifying patients who are likely to respond to already existing therapeutic agents targeting ICAM-1 expression such as alicaforsen (Miner et al, 2006; Vainer, 2010). Likewise, detection of high levels of soluble CK18 can indicate extensive epithelial damage in an IBD patient and help appropriately adjusting applied therapeutic procedures.
- biomarkers described in this invention as a biomarker panel for a complete characterisation of an individual with suspected IBD in order to determine the precise diagnosis and work out the most preferable therapeutic strategy. This constitutes the eighth key element of the new method.
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US20120258477A1 (en) | 2011-07-25 | 2012-10-11 | Northwestern University | Fecal neopterin concentration measurement as an indicator of disease activity in inflammatory bowel disease |
MX352274B (en) | 2011-10-21 | 2017-11-16 | Nestec Sa | Methods for improving inflammatory bowel disease diagnosis. |
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2013
- 2013-11-07 EP EP13802086.2A patent/EP3094973B1/en active Active
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